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Question

A solid cylinder is released from rest from the top of an inclined plane of inclination θ and length l. If the cylinder rolls without slipping, then find it's speed when it reaches the bottom of inclined plane.

A
4glsinθ3
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B
3glsinθ2
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C
4gl3sinθ
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D
4gsinθ3l
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Solution

The correct option is A 4glsinθ3
In case of pure rolling, total mechanical energy remains conserved i.e Wf=0,
vCM=rω for pure rolling
Since solid cyliinder is starting from rest, ωi=0, vi=0
KETrans=12mv2CM
KERot=12ICMω2
Total mechanical energy at initial position:
E1=PE+KETrans+KERot
E1=mgh+0+0=mgh
Taking reference of PE=0 at final position i.e at bottom of inclined plane
Total mechanical energy at final position:
E2=PE+KETrans+KERot
E2=0+12mv2CM+12ICMω2
vCMr=ω and ICM=mr22
E2=12mv2CM+12(mr22)(v2CMr2)
E2=34mv2CM
From conservation of total mechanical energy,
E1=E2
mgh=34mv2CM
vCM=43gh


vCM=4glsinθ3

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